1. Select Pack Size

These small but high-performance neodymium (N42) cylindrical rod magnets generate incredible magnetism from a small pole area.

Pack of 10

5mm diameter x 8.47mm thick

+/-0.1mm tolerance

Each magnet's north and south pole are on opposite 5mm circular faces

Excellent resistance to demagnetisation

Each magnet is coated with three layers of nickel, copper and nickel to improve corrosion resistance and provide a smooth and clean finish

Our 5mm diameter neodymium rod magnets produce an astonishing pull for their size. These particular magnets are favoured among craft enthusiasts and model makers but they also have many uses in engineering, manufacturing and technology where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.

1. Select Pack Size

These small but high-performance neodymium (N42) cylindrical rod magnets generate incredible magnetism from a small pole area.

Pack of 100

5mm diameter x 8.47mm thick

+/-0.1mm tolerance

Each magnet's north and south pole are on opposite 5mm circular faces

Excellent resistance to demagnetisation

Each magnet is coated with three layers of nickel, copper and nickel to improve corrosion resistance and provide a smooth and clean finish

Our 5mm diameter neodymium rod magnets produce an astonishing pull for their size. These particular magnets are favoured among craft enthusiasts and model makers but they also have many uses in engineering, manufacturing and technology where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.

1. Select Pack Size

These small but high-performance neodymium (N42) cylindrical rod magnets generate incredible magnetism from a small pole area.

Pack of 200

5mm diameter x 8.47mm thick

+/-0.1mm tolerance

Each magnet's north and south pole are on opposite 5mm circular faces

Excellent resistance to demagnetisation

Each magnet is coated with three layers of nickel, copper and nickel to improve corrosion resistance and provide a smooth and clean finish

Our 5mm diameter neodymium rod magnets produce an astonishing pull for their size. These particular magnets are favoured among craft enthusiasts and model makers but they also have many uses in engineering, manufacturing and technology where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.

1. Select Pack Size

These small but high-performance neodymium (N42) cylindrical rod magnets generate incredible magnetism from a small pole area.

Pack of 400

5mm diameter x 8.47mm thick

+/-0.1mm tolerance

Each magnet's north and south pole are on opposite 5mm circular faces

Excellent resistance to demagnetisation

Each magnet is coated with three layers of nickel, copper and nickel to improve corrosion resistance and provide a smooth and clean finish

Our 5mm diameter neodymium rod magnets produce an astonishing pull for their size. These particular magnets are favoured among craft enthusiasts and model makers but they also have many uses in engineering, manufacturing and technology where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.

Each magnet is coated with three layers of nickel, copper and nickel to improve corrosion resistance and provide a smooth and clean finish

Our 5mm diameter neodymium rod magnets produce an astonishing pull for their size. These particular magnets are favoured among craft enthusiasts and model makers but they also have many uses in engineering, manufacturing and technology where small size and maximum strength are required. What's more, because of their resistance to demagnetisation they are ideal for creating a shock-absorbing or damping effect when used to repel other magnets.